In this context, continuous-flow reactors play a major role in increasing the efficiency of a given photocatalyzed reaction, thus rendering scale-up processes more accessible. As a consequence, the interest in developing novel synthetic strategies has spiked together with the need to define suitable technologies to overcome scale-up issues dictated by the Bouguer–Beer–Lambert law. Since its recognition as an enabling tool to form challenging C–C and C–heteroatom bonds under mild and sustainable conditions, photoredox catalysis has been in the spotlight within the synthetic community. Design and Chemical Synthesis of Antiviralsīuy Article Permissions and Reprints All articles of this category.Machine Learning and Artificial Intelligence in Chemical Synthesis and Catalysis.Virtual Pearl Anniversary Issue – 30 Years SYNLETT.Editorial Board Collection published in 2020/2021.Nobel Prize 2021 Collection – Ben List and David MacMillan.20 most-cited SYNLETT articles published in 2020/2021.Thieme Chemistry Journals Awardees 2022.Special Section: 11th EuCheMS Organic Division Young Investigator Workshop.Integrated Synthesis Using Continuous-Flow Technologies.Radicals – by Young Chinese Organic Chemists.Modern Heterocycle Synthesis and Functionalization.The Power of Transition Metals – In Honor of Prof.Perspectives on Organoheteroatom and Organometallic Chemistry. Modern Nickel-Catalyzed Reactions – Part II.Modern Nickel-Catalyzed Reactions – Part I.Special Section: 12th EuCheMS Organic Division Young Investigator Workshop.Organic Photoredox Catalysis in Synthesis – Honoring Prof.Development and Applications of Novel Ligands/Catalysts and Mechanistic Studies on Catalysis.Chemical Synthesis and Catalysis in India – Part I.Chemical Synthesis and Catalysis in India – Part II.
0 Comments
Leave a Reply. |